JP2023034168A - Photovoltaic power storage system - Google Patents

Abstract

[Problem] To provide a solar power storage system that allows a user to know the remaining charge of a storage battery without having to go to the installation site of the storage battery. [Solution] A solar panel 11, a voltage measurement unit 13, and a communication unit 14 are provided for each storage battery 10, and when accessed from a terminal computer 5 by a cloud server device 4, the received voltage measurement value 31 is displayed in chronological order along with a date and time 32 for each storage battery 10 on the display unit of the terminal computer 5, and a weather icon 33 based on weather information obtained from a weather information site is displayed in correspondence with the date and time 32. Therefore, the remaining charge of the storage batteries 10, 10... can be known without having to go to the installation sites of the storage batteries 10, 10..., and the weather at the installation sites of the storage batteries 10, 10... can also be known, making it possible to predict the future operating status of the storage batteries 10, 10.... [Selected Figure] Figure 1

Description

TECHNICAL FIELD The present invention relates to a solar power storage system for monitoring the remaining amount of a rechargeable battery charged by solar power generation.

2. Description of the Related Art Conventionally, there is a power storage system that measures the voltage of a storage battery, for example, as described in Patent Document 1.

JP 2018-169161 A

However, in the conventional power storage system, in order for the user to grasp the measured value of the voltage of the storage battery and the remaining amount of the storage battery based on the measured value, the user had to visually grasp the voltage. Therefore, for example, if the storage battery is a storage battery that is charged by sunlight, and such a storage battery is mounted on a temporary traffic light, it would be necessary to go to the installation location of the temporary traffic light to check the remaining amount of the storage battery. There was a problem that the work became very troublesome depending on the number of temporary traffic lights and the installation location.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a solar power storage system that enables monitoring of the remaining amount of a storage battery without having to go to the location where the storage battery is installed.

To achieve the above object, the present invention provides a solar power storage system comprising a plurality of storage batteries charged by solar power generation, a cloud server device, and a terminal device capable of accessing the cloud server device. , for each storage battery, solar power generation means, voltage measurement means for measuring the voltage of the storage battery every predetermined voltage measurement time, and communication for transmitting the measured voltage value to the cloud server device every predetermined communication time While provided with means, the cloud server device displays the received measurement value of the voltage for each storage battery on the display unit of the terminal device when accessed from the terminal device in chronological order along with the date and time. In addition, weather information is obtained from a weather information site, and a weather icon based on the weather information is displayed in association with the date and time.

According to the present invention, for each storage battery, the solar power generation means, the voltage measurement means for measuring the voltage of the storage battery every predetermined voltage measurement time, and the voltage measurement value transmitted to the cloud server device every predetermined communication time. A communication means is provided, and the display unit of the terminal device when accessed from the terminal device by the cloud server device displays the received voltage measurement value for each storage battery in chronological order along with the date and time, Based on the weather information obtained from the weather information site, weather icons are displayed corresponding to the date and time. Therefore, it is possible to monitor the remaining amount of the storage battery without going all the way to the location where the storage battery is installed, and also to grasp the weather at the location where the storage battery is installed, so that it is possible to predict the future operation status of the storage battery. , the solar power storage system can be very user-friendly.

BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing which showed the outline of a storage battery monitoring system. 1 is a block configuration diagram of an electric device; FIG. It is an explanatory view showing a management screen of a storage battery. It is explanatory drawing which showed the voltage transition chart of a storage battery.

A solar power storage system (hereinafter referred to as a storage battery monitoring system) according to an embodiment of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is an explanatory diagram showing an outline of a storage battery monitoring system 1. As shown in FIG. FIG. 2 is a block configuration diagram of the electric device 3. As shown in FIG. FIG. 3 is an explanatory diagram showing a management screen for the storage batteries 10, 10 . . . FIG. 4 is an explanatory diagram showing a voltage transition chart of the storage battery 10. As shown in FIG.
A storage battery monitoring system 1 includes electrical equipment 3, 3, . The electrical device 3 is a device such as a temporary traffic light or an electric light board, and includes a storage battery 10 that supplies power to a load 6 of the electrical device 3 and a solar panel 11 for charging the storage battery 10 . In addition, the electric appliance 3 includes a GPS unit 12 for acquiring position information of the storage battery 10 using GPS, a voltage measurement unit 13 for measuring the voltage of the storage battery 10, the acquired position information and the measured voltage and a communication unit 14 for transmitting to the cloud server device 4 .

On the other hand, the cloud server device 4 is installed in a data center or the like, receives the position information and the voltage measurement value transmitted from the communication unit 14, and based on the position information and the voltage measurement value, which will be described later. The state of the storage battery 10 is determined as described above, and various information including the result of the state determination is transmitted to the terminal computer 5 via the Internet 2 . The terminal computer 5 is a well-known computer used by a user in an office or the like, and has a display section, an input section, a control section, etc., and also has a mail function. The location information and the voltage measurement value are transmitted from the communication unit 14 of the storage battery 10 to the cloud server device 4 by LTE communication.

Here, notification of the remaining amount of the storage battery 10 in the storage battery monitoring system 1 will be described.
First, when using the storage battery monitoring system 1, the user accesses the cloud server device 4 using the terminal computer 5, and enters the identification information (for example, the name) and the initial position for each electrical device 3 (that is, the storage battery 10). set. In addition, for each storage battery 10, the type and remaining amount threshold (first and second thresholds described later) are also set. Furthermore, the mail address of the terminal computer 5 is set. The cloud server device 4 stores in advance characteristics relating to the relationship between the voltage and the remaining amount of the storage battery, corresponding to the type of the storage battery.

Then, in each electrical device 3 installed at the initial position set by the user, the voltage measurement unit 13 measures the voltage of the storage battery 10 every predetermined voltage measurement time (for example, every two minutes), and the measured value is stored in its own memory. Also, the GPS unit 12 acquires its own position information using GPS every predetermined position measurement time (for example, every 10 minutes) and stores the position information in its own memory. Then, the communication unit 14 transmits the location information stored in the GPS unit 12 and the voltage measurement value stored in the voltage measurement unit 13 to the cloud server device 4 at predetermined communication time (for example, every 10 minutes). Send to

On the other hand, in cloud server device 4, based on the received position information, it is determined whether the position of storage battery 10 has moved by a predetermined notification distance (for example, 100 m) or more from the initial position preset by the user. When it is determined that the storage battery 10 has moved more than the notification distance, the terminal computer 5 is notified by e-mail to that effect on the assumption that the storage battery 10 may have been stolen or unintentionally moved due to a disaster or the like. . In addition, based on the received voltage measurement value, the remaining amount of the storage battery 10 at the time of reception is calculated, and whether or not the remaining amount of the storage battery 10 has become less than a first threshold preset by the user. judge. Then, when it is determined that the remaining amount of the storage battery 10 is less than the first threshold value, the terminal computer 5 is notified by e-mail that the electrical equipment 3 may stop operating. Furthermore, in the cloud server device 4, if new position information and voltage measurement values cannot be received from the communication unit 14 even though the communication time has passed since the previous reception from the communication unit 14, the communication unit 14 fails. The terminal computer 5 is notified by e-mail to that effect.

Next, a display mode on the display section of the terminal computer 5 when the cloud server device 4 is accessed from the terminal computer 5 will be described.
3, the identification information 21 of the storage battery 10 (the electric device 3), the remaining amount 22 of the storage battery 10, and the position information 23 of the storage battery 10 are displayed as a list. It has become. Further, for each storage battery 10, an input display unit 24 for inputting a first threshold for calling attention to the remaining amount of the storage battery 10 and a second threshold for notifying the limit of the remaining amount of the storage battery 10 are input. An input display unit 25 is provided, and a remaining amount identification display unit 26 for displaying an identification display related to the remaining amount of the storage battery 10 is provided. Then, when the remaining amount of the storage battery 10 calculated based on the measured value of the voltage received from the storage battery 10 is equal to or greater than the first threshold value, the first identification display (specifically, a green circle) is displayed as the identification display. is displayed on the remaining amount identification display unit 26 . Further, when the remaining amount of the storage battery 10 is less than the first threshold value and becomes equal to or more than the second threshold value, the remaining amount identification display unit 26 displays the second identification display (specifically, a yellow circle) as the identification display. to display. Furthermore, when the remaining amount of the storage battery 10 becomes less than the second threshold value, the remaining amount identification display section 26 is caused to display a third identification display (specifically, a red circle) as an identification display.

Also, a voltage transition chart as shown in FIG. 4 can be displayed for each storage battery 10 . In the voltage transition chart, measured voltage values 31 received from the storage battery 10 are displayed in chronological order along with dates and times 32 . In addition, the cloud server device 4 acquires weather information from a weather information site (for example, the site of the Japan Meteorological Agency), and displays weather icons 33 based on the weather information in association with the date and time 32 .

According to the storage battery monitoring system 1 having the configuration described above, the voltage measurement unit 13 and the communication unit 14 are provided for each storage battery 10, and the measured value of the voltage received from the storage battery 10 is measured by the cloud server device 4. When the originally calculated remaining amount of the storage battery 10 is less than the first threshold and becomes equal to or greater than the second threshold, the second identification display is displayed as an identification display on the remaining amount identification display unit 26, or the storage battery 10 When the remaining amount of battery becomes less than the second threshold value, a third identification display is displayed on the remaining amount identification display section 26 as an identification display. In addition, when the remaining amount of the storage battery 10 becomes less than the first threshold value, the terminal computer 5 is notified by e-mail that the electrical equipment 3 may stop operating. Therefore, it is possible to monitor the remaining amount of the storage batteries 10, 10, .

In addition, a GPS unit 12 is provided for each storage battery 10, and the communication unit 14 transmits the measured voltage value and position information to the cloud server device 4. If the information 23, 23, . The computer 5 is notified by e-mail. Therefore, the current location of the storage batteries 10, 10, . Even if you do, you will know that the situation happened.

Furthermore, the cloud server device 4 causes the display unit of the terminal computer 5 when accessed from the terminal computer 5 to display the received voltage measurement value 31 for each storage battery 10 in chronological order together with the date and time 32. A weather icon 33 based on the weather information acquired from the information site is displayed corresponding to the date and time 32.例文帳に追加Therefore, it is possible to monitor the remaining amount of the storage batteries 10, 10, . By doing so, it is possible to predict the future operating conditions of the storage batteries 10, 10, .

In addition, the solar power storage system according to the present invention is not limited to the aspects of the above-described embodiments. can be changed as appropriate.

For example, in the above embodiments, a terminal computer is used as the terminal device, but it is of course possible to use other terminal devices such as smart phones and tablet devices.
In addition, regarding the display on the display unit of the terminal device when accessing the cloud server device from the terminal device, the cloud server device acquires map information from the map site and displays the location of the storage battery on the map based on the received location information. It can also be configured to display. In displaying the position of the storage battery on the map, it is of course possible to display an identification display corresponding to the remaining amount of the storage battery or to display the remaining amount of the storage battery numerically.

Furthermore, in the above-described embodiment, the cloud server device is configured to calculate the remaining amount of the storage battery based on the received voltage measurement value, and to display an identification display or notify an e-mail according to the remaining amount of the storage battery. However, this configuration is synonymous with a configuration that uses the measured voltage value as it is (comparing the measured voltage value with a threshold value, etc.), and it is also possible to configure so that the remaining amount of the storage battery is not calculated.
In addition, it goes without saying that the time and distance to be set as the voltage measurement time, the position measurement time, the communication time, and the notification distance can be changed as appropriate.

1... Storage battery monitoring system (solar power storage system), 3... Electric equipment, 4... Cloud server device, 5... Terminal computer (terminal device), 10... Storage battery, 11... Solar panel (solar power power generation means), 12 GPS unit (position acquisition means), 13 voltage measurement unit (voltage measurement means), 14 communication unit (communication means), 22 remaining amount, 23 position information, 31 Measured value 32 Date and time 33 Weather icon.

Claims (1)

A solar power storage system comprising a plurality of storage batteries charged by solar power generation, a cloud server device, and a terminal device capable of accessing the cloud server device,
For each storage battery, solar power generation means, voltage measurement means for measuring the voltage of the storage battery every predetermined voltage measurement time, and communication means for transmitting the voltage measurement value to the cloud server device every predetermined communication time. and
The cloud server device causes the display unit of the terminal device when accessed from the terminal device to display the received voltage measurement value for each storage battery in chronological order along with the date and time, and displays the received voltage measurement value from the weather information site A solar power storage system, wherein weather information is acquired, and a weather icon based on the weather information is displayed corresponding to the date and time.

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